Preparation of 2-alkoxyimino aldehydes and 2-alkoxyimino ketones by

Jun 26, 1971 - Dominick A. Coviello*. Department of Medicinal Chemistry, College of Pharmacy,. University of Illinois at the Medical Center,. Chicago,...
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J. Org. Chem., Vol. 37, No. 1, 1972

NOTES

139

In the case of acetone oxime 0-ethyl ether, running the reaction without solvent or in a mixture of dioxane and water produced no aldehyde.

Preparation of 2-Alkoxyimino Aldehydes and Ketones by the Oxidation of Alkoxyiminoalkanes with Selenium Dioxide1

Experimental Section

LARRYA. STERN SON^ AND DOMINICK A . COWELLO*

General Procedure.-The optimum conditions varied from compound to compound, but the general procedure involved heating equimolar quantities of selenium dioxide and the oxime ether in a solution of p-dioxane and water (8: 1) at reflux for 4.5 hr. Filtration of the reaction mixture to remove selenium was followed by removal of solvent and distillation of the residue. Characterization of Esters.-When acetone oxime 0-ethyl ether was treated with selenium dioxide in alcohol-water at reflux the 1.4540, showed no aldehydic product, bp 70-72' (15 Torr), TPD proton in the nmr. It did show a weak carbonyl bond at 1735 cm-I (film) in the ir and a parent ion at m/e 159 in the mass spectrum. Basic hydrolysis of the product yielded a white solid which was identified as 2-ethoxyiminopropionic acid, mp 68-70' (lit.668-70').

Departmenst of Medicinal Chemistry, College of Pharmacy, University of Illinois at the Medical Center, Chicago, Illinois 60611 Received June 66,1971

Two 2-alkoxyiminoaldehydes have been prepared in low yield by reduction of the corresponding 2-alkoxyiminoacyl halides with lithium tri-tert-butoxyaluminohydride.2 2-Alkoxyimino ketones have not been reported, however.

TABLE I COMPOUNDS PREPARED

BY THE

SeOz OXIDATION O F ALKOXYIMINOALKANES Ri-C-X

&ORz Registry no.

32349-36-3

RI

Ph

Rz

Me

X

Bp, 'C (Torr)

Refractive index

CHO

Yield,

63-65 n Z 0 D 1.5455 (0.035) 32349-37-4 Ph Et CHO 59-61 1 2 " ~ 1.5380 (0.002) 32349-39-6 EtCO E t H 132-134 n Z 41.4318 ~ a Analyzed as semicarbazone (C10H12N402),mp 195', registry no. registry no. 32349-38-5.

Imine nitrogens in heteroaromatic systems like carbonyls cause adjacent methylenes to become oxidized to aldehydes or ketones by SeO?. In these systems, however, the corresponding acid derivatives have a great propensity to f ~ r m . ~ , ~ I n an effort to develop a general procedure for introducing a carbonyl adjacent to an alkoxyimino function, 0-alkyl oximes were treated with SeOz. Ethers (methyl and ethyl) of acetophenone oxime were oxidized to the desired aldehydes in good yield. The corresponding free oximes produced tar. The 0-ethyl ether of butyraldoxime was readily oxidized to 2oxobutyraldoxime 0-ethyl ether. The compounds prepared are shown in Table I with pertinent physical and analytical data. When the 0-ethyl ethers of purely aliphatic compounds like acetone and 3-methyl butanone were treated with SeOz in ethanol they yielded mainly ethyl esters of the corresponding 2-alkoxyimino acids. Spectral and chemical evidence confirmed the presence of the esters (see Experimental Section). Ester formation apparently results from an acid-catalyzed condensation between the carboxylic acids generated and the solvent (ethanol), (1) Abstracted in part from the Ph.D. dissertation of L. A. S., University of Illinois, 1971. (2) Department of Medicinal Chemistry, University of Kansas, Lawrence, Kans. (3) D . A. Coviello and W. H. Hartung, J. Ow. Chem., 24, 1611 (1959). (4) A. Burger and L. R . Modlin, J . Arne?. Chem. Soc., 68, 1079 (1940). ( 5 ) W. Henae, Ber., 67, 750 (1934).

7 - C a l c d , %--C H N

--Found, C

CsHgN02"

54.09 5.41 24.54

54.32 5.33 24.92

CioHiiNOzb

56.41 5.98 23.93

56.65 5.68 23.85

yo

Composition

49 60

%--H

N

33 CeHlINOz 55.81 8.53 10.85 5.5.54 8.72 10.65 32382-33-5. Analyzed as semicarbazone (CllHiaNaOz),mp 175' ,

In like manner ethyl 2-ethoxyimino-3-methylbutanoate,bp 64-66' (13 Torr), 12% 1.4339, was obtained from 2-ethoxyimino3-methylbutanone. No aldehydic proton was observed in the nmr, but there was a weak carbonyl at 1730 cm-' (film) in the ir and a parent ion at m/e 187 in the mass spectrum.

Registry No.-SeOz, 7446-08-4. (6) A. F . Ferris, J . Org. Chem., 24, 1726 (1959).

Hiickel Molecular Orbital Calculations of the Index of Aromatic Stabilization of Polycyclic Conjugated Molecules1 v2

M. MILUN,i.SOBOTKA, AND N. TRINAJSTI~* Institute "Rugjer BoSkoviC," 4lOOO Zagreb, Croatia, Yugoslavia Received April 60, 1971

I n recent years there have been various attempts3-' to improve the predictive power of the HMO method originated by HuckeP in 1931. Here we would like (1) Presented in part at the Meeting of Croatian Chemists, Zagreb, Croatia, Yugoslavia, Feb 1971. (2) This note was based upon B.S. theses submitted by M. Milun and 2. Sobotka in partial fulfillment of the requirements for the B.S. degree at the Croatian University, Zagreb, 1971. (3) H. P. Figeys and P. Dedieu, Theor. C h i n . Acta, 9, 82 (1967). (4) H. P. Figeys, Tetrahedron, 26, 4615, 5225 (1970). (5) J. Krusaewski and T. M. Krygowski, Tetrahedron Lett., 319 (1970). (6) T. M. Krygowski, ibzd., 1311 (1970). (7) J. Kuthan and T . M. Krygowski, ibzd., 4109 (1970). (8) E. HIickel, Z.Phys., 70, 204 (1931); 72, 310 (1931); 76, 628 (1932).